Phytoecdysteroid
Phytoecdysteroids are plant-derived ecdysteroids. Phytoecdysteroids are a class of chemicals that plants synthesize for defense against phytophagous (plant eating) insects. These compounds are mimics of hormones used by arthropods in the molting process known as ecdysis. When insects eat the plants with these chemicals they may prematurely molt, lose weight, or suffer other metabolic damage and die.
Chemically, phytoecdysteroids are classed as triterpenoids, the group of compounds that includes triterpene saponins, phytosterols, and phytoecdysteroids. Plants, but not animals, synthesize phytoecdysteroids from mevalonic acid in the mevalonate pathway of the plant cell using acetyl-CoA as a precursor.
Over 250 ecdysteroid analogs have been identified so far in plants, and it has been theorized that there are over 1,000 possible structures which might occur in nature.[1] Many more plants have the ability to "turn on" the production of phytoecdysteroids when under stress, animal attack or other conditions.[2]
The term phytoecdysteroid can also apply to ecdysteroids found in fungi, even though fungi are not plants.
Some plants or fungi that produce phytoecdysteroids include Achyranthes bidentata,[3] Tinospora cordifolia,[4] Pfaffia paniculata,[5] Leuzea carthamoides,[6] Rhaponticum uniflorum,[7] Serratula coronata,[8] Cordyceps, and Asparagus.[9]
See also
References
- ^ Dinan L. (2001). "Phytoecdysteroids: biological aspects". Phytochemistry. 57 (3): 325–339. Bibcode:2001PChem..57..325D. doi:10.1016/S0031-9422(01)00078-4. PMID 11393511.
- ^ Dinan L, Savchenko T, Whiting P (2001). "On the distribution of phytoecdysteroids in plants". Cellular and Molecular Life Sciences. 58 (8): 1121–1132. doi:10.1007/PL00000926. PMC 11337386. PMID 11529504. S2CID 8496934.
- ^ Gao XY, Wang DW, Li FM (2000). "Determination of ecdysterone in Achyranthes bidentata Bl and its activity promoting proliferation of osteoblast-like cells". Yao Xue Xue Bao. 35 (11): 868–870. PMID 11218869.
- ^ Song CQ, RS Xu (1991). "Phytoecdysones from the roots of Tinospora capillipes". Chinese Chemical Letters. 2 (1): 13–14.
- ^ Courtheyn D, Le Bizec B, Brambilla G, Debrabander H, Cobbaert E, Vandewiele M, et al. (2002). "Recent developments in the use and abuse of growth promoters". Analytica Chimica Acta. 473 (1–2): 71–82. Bibcode:2002AcAC..473...71C. doi:10.1016/S0003-2670(02)00753-5.
- ^ Pis J, Budesinsky M, Vokac K, Laudová V, Harmatha J (1994). "Ecdysteroids from the roots of Leuzea carthamoides". Phytochemistry. 37 (3): 707–711. Bibcode:1994PChem..37..707P. doi:10.1016/S0031-9422(00)90343-1.
- ^ Zhang et al. 2002 [full citation needed]
- ^ Bathori M, Kalasz H, Csikkelne SA, <Please add first missing authors to populate metadata.> (1999). "Components of Serratula species; screening for ecdysteroid and inorganic constituents of some Serratula plants". Acta Pharmaceutica Hungarica. 69 (2): 72–76. PMID 10389301.
- ^ Dinan L, Savchenko T, Whiting P (2001). "Phytoecdysteroids in the genus Asparagus (Asparagaceae)". Phytochemistry. 56 (6): 569–76. Bibcode:2001PChem..56..569D. doi:10.1016/S0031-9422(00)00438-6. PMID 11281134.